Petrology and Sr-Nd-Pb isotope geochemistry of Late Cretaceous continental rift ignimbrites, Kap Washington peninsula, North Greenland

TY - JOUR

T1 - Petrology and Sr-Nd-Pb isotope geochemistry of Late Cretaceous continental rift ignimbrites, Kap Washington peninsula, North Greenland

AU - Þórarinsson, Sigurjón Böðvar

AU - Holm, Paul Martin

AU - Duprat, Helene Inga

AU - Tegner, Christian

PY - 2012/3/15

Y1 - 2012/3/15

N2 - The Late Cretaceous-Palaeocene (71-61Ma) Kap Washington Group (KWG) volcanic sequence is exposed at the north coast of Greenland. The sequence is bimodal and was erupted in a continental rift setting during the opening of the Arctic Ocean. The succession exposed on the Kap Washington peninsula, which forms the bulk of the KWG sequence (>5km thick), has been sampled along four traverses with a combined stratigraphic thickness of ca. 1500m. The sampled sequence is dominated by silicic ignimbrites (69-79wt.% SiO 2) showing geochemical features typical of ferroan, A-type granitoids. The ignimbrites range from sparsely phyric, mildly peraluminous compositions [ASI=Al 2O 3/(CaO+Na 2O+K 2O)=1.05-1.20] to feldspar+quartz±sodic amphibole±Fe-Ti oxide phyric peralkaline compositions [PI=(Na 2O+K 2O)/Al 2O 3=1.00-1.40]. The peraluminous ignimbrites appear to overlie the peralkaline ignimbrites, although stratigraphy is complicated by faulting. Fiamme imbrication indicates that both types were erupted from a vent area located north of the Kap Washington peninsula. The peralkaline ignimbrites have Sr-Nd-Pb isotopic compositions which overlap with the compositions of KWG basalts, indicating a dominantly basaltic source. The more peralkaline compositions were generated by up to ca. 50% fractional crystallisation of alkali feldspar-quartz-dominated assemblages from mildly peralkaline parental magmas, themselves probably derived by fractionation of trachytic magmas. The peraluminous ignimbrites have slightly negative ε Nd(i) and more radiogenic 207Pb/ 204Pb i and 208Pb/ 204Pb i. Modelling indicates that they are not cogenetic with the peralkaline ignimbrites and they are inferred to have originated by partial melting of hybridised mafic crust. Petrographic evidence suggests that magma mixing was an important process and variations in Nd-Pb isotopes and trace element ratios indicate mixing between peralkaline and peraluminous magma batches.

AB - The Late Cretaceous-Palaeocene (71-61Ma) Kap Washington Group (KWG) volcanic sequence is exposed at the north coast of Greenland. The sequence is bimodal and was erupted in a continental rift setting during the opening of the Arctic Ocean. The succession exposed on the Kap Washington peninsula, which forms the bulk of the KWG sequence (>5km thick), has been sampled along four traverses with a combined stratigraphic thickness of ca. 1500m. The sampled sequence is dominated by silicic ignimbrites (69-79wt.% SiO 2) showing geochemical features typical of ferroan, A-type granitoids. The ignimbrites range from sparsely phyric, mildly peraluminous compositions [ASI=Al 2O 3/(CaO+Na 2O+K 2O)=1.05-1.20] to feldspar+quartz±sodic amphibole±Fe-Ti oxide phyric peralkaline compositions [PI=(Na 2O+K 2O)/Al 2O 3=1.00-1.40]. The peraluminous ignimbrites appear to overlie the peralkaline ignimbrites, although stratigraphy is complicated by faulting. Fiamme imbrication indicates that both types were erupted from a vent area located north of the Kap Washington peninsula. The peralkaline ignimbrites have Sr-Nd-Pb isotopic compositions which overlap with the compositions of KWG basalts, indicating a dominantly basaltic source. The more peralkaline compositions were generated by up to ca. 50% fractional crystallisation of alkali feldspar-quartz-dominated assemblages from mildly peralkaline parental magmas, themselves probably derived by fractionation of trachytic magmas. The peraluminous ignimbrites have slightly negative ε Nd(i) and more radiogenic 207Pb/ 204Pb i and 208Pb/ 204Pb i. Modelling indicates that they are not cogenetic with the peralkaline ignimbrites and they are inferred to have originated by partial melting of hybridised mafic crust. Petrographic evidence suggests that magma mixing was an important process and variations in Nd-Pb isotopes and trace element ratios indicate mixing between peralkaline and peraluminous magma batches.

U2 - 10.1016/j.jvolgeores.2012.01.011

DO - 10.1016/j.jvolgeores.2012.01.011

M3 - Journal article

SN - 0377-0273

VL - 219-220

SP - 63

EP - 86

JO - Journal of Volcanology and Geothermal Research

JF - Journal of Volcanology and Geothermal Research

ER -